Method and system for supporting an imaging transceiver

ABSTRACT

A system and method for supporting an ultrasound transducer or other medical device from a position above a patient support surface using an arched overhead boom and a tool balancer or multi-directional articulating extendable mount.

BACKGROUND OF INVENTION

In recent years, handheld medical imaging transceivers, such asultrasound and gamma ray transceivers, have been used extensively forvarious medical imaging situations. In certain situations, such astrans-rectal and trans-vaginal procedures, the imaging transceiver iscoupled to a transceiver mount that is either floor or wall mounted ormounted to the bed or examination table. These transceiver mountstypically have some mechanism for stabilizing the transceiver from apoint originating from the side of the patient or below the patient.

While these transceiver mounts have been used extensively in the past,they do have some drawbacks. First of all, the use of patient level andbelow support mechanisms often result in wires and other apparatus beingplaced on or in the near proximity of the patient. Increased contact ofa transceiver wire with the patient increases the likelihood thatdistant movements of the patient (e.g., moving a leg with a wire drapedover it), may result in unwanted motion of the transceiver. Secondly,these mounts are typically too cumbersome to be used regularly incertain applications like wide area, non-invasive scanning procedures,such as general fetal examinations. When the transceiver mounts are notused, their benefits are not realized.

It should also be noted that it is well known in the medical field toemploy overhead lamps on adjustable booms over a patient.

Consequently, there exists a need for improved methods and systems forsupporting a medical imaging transceiver in an efficient manner.

SUMMARY OF INVENTION

It is an object of the present invention to provide a system and methodfor stabilizing a medical imaging transceiver in an efficient manner.

It is a feature of the present invention to utilize an overhead supportmechanism for a medical imaging transceiver.

It is another feature of the present invention to include acounter-balancing overhead medical imaging transceiver support.

It is another feature of the present invention to include amulti-directional jointed articulating overhead support arm for medicalimaging transceivers.

It is another feature of the present invention to include a stabilizingmattress board.

It is another feature of the present invention to include a stabilizingbed clamp.

It is another feature of the present invention to include a rollingfloor stand with locking wheels.

It is an advantage of the present invention to achieve improvedefficiency in supporting medical imaging transceivers.

The present invention is an apparatus and method for supporting medicalimaging transceivers, designed to satisfy the aforementioned needs,provide the previously stated objects, include the above-listedfeatures, and achieve the already articulated advantages. The presentinvention is carried out in a “wasted time-less” manner in a sense thatthe time consumed with temporarily storing and retrieving the storedtransceiver has been greatly reduced. Similarly, the present inventionis a “fatigue-less” mount in the sense that the fatigue associated withholding a medical imaging transceiver can be reduced.

Accordingly, the present invention is a system and method including anoverhead medical imaging transceiver support device which simultaneouslyprovides support and an ability to maneuver and manipulate a transceiverwithout encroaching, with equipment and/or wires, into a zone, about thepatient, defined at its upward extent by the lowest portion of thetransceiver and at its lowest extent, a plane upon which the patientrests.

BRIEF DESCRIPTION OF DRAWINGS

The invention may be more fully understood by reading the followingdescription of the preferred embodiments of the invention, inconjunction with the appended drawings wherein:

FIG. 1 is a side view of a system of the present invention.

DETAILED DESCRIPTION

Now referring to the drawings wherein like numerals refer to like matterthroughout, and more specifically referring to FIG. 1, there is shown anoverhead medical imaging transceiver support system of the presentinvention generally designated 100. Overhead medical imaging transceiversupport system 100 includes an examination table, bed or other patientsupport device 110, which has a mattress, cushion or patient restingsurface 112 thereon for supporting the patient above the floor. Overheadmedical imaging transceiver support system 100 includes a medicalimaging transceiver system terminal end 120, which includes a medicalimaging transceiver 122. These transceivers are well known in themedical imaging field. They may include ultrasound transducers, gammaray transceivers, or any other type of device which emits a signal andreceives reflections therefrom and then provides a signal to a medicalimaging system 190 for generating an image of a portion of a human body.The term “medical device” is used herein to include medical imagingtransceivers, medical instruments, cryotherapy devices and other medicaltools, but the term shall specifically exclude devices which are merelyadjustable overhead lamps. It should be understood that the presentinvention is intended to include systems which substitute medicaldevices for the medical imaging transceivers described herein. Medicalimaging transceiver power and signal cable 124 is used to connectmedical imaging transceiver 122 with medical imaging system 190. Medicalimaging transceiver power and signal cable 124 can provide power andsignals in one or more lines. Medical imaging transceiver balancer 126is a device which is used to support the weight of medical imagingtransceiver 122. Medical imaging transceiver balancer 126 can be anytype of device which is capable of maintaining an upward pressure on themedical imaging transceiver 122 so as to hold it in place once thephysician or technician's hand is removed from the medical imagingtransceiver 122 or the medical imaging transceiver adapter 128 whichsurround and supports and couples the medical imaging transceiver 122with the medical imaging transceiver balancer support line 127. Medicalimaging transceiver balancer 126 can be constructed like a tool balancerwhich are well known in the field of factory automation and ergonomicengineering. Medical imaging transceiver balancer 126 may have a tensionadjuster 125 which is used to control the requisite force to pullmedical imaging transceiver balancer support line 127 further out ofmedical imaging transceiver balancer 126. Tension adjuster 125 can betuned to just hold the medical imaging transceiver 122 suspended.Medical imaging transceiver balancer 126 may also include a lineactuator 123 which, if manipulated in a predetermined manner, causes themedical imaging transceiver balancer support line 127 to return withoutthe need to make an adjustment to the tension adjuster. Line actuator123 could also be configured, upon a different manipulation, to functionas a lock on the medical imaging transceiver balancer support line 127,not allowing it to move in either direction. The details of the designsof medical imaging transceiver balancer 126 with line actuator 123, andtension adjuster 125 are believed to be sufficiently described, so thata person having ordinary skill in the art of prior art tool balancers,with the aid of this description, could make and use the same withoutundue experimentation.

Medical imaging transceiver adapter 128 may be any type of adapter andmay be a universal adapter for coupling with various types oftransceivers. Medical imaging transceiver adapter 128 may be a contouredclamshell-shaped clamp which has contours adapted and configured to fitto a commercially available medical imaging transceiver 122. The medicalimaging transceiver adapter 128 has a screw actuated variable clampforce characteristic. Depending upon the weight of the medical imagingtransceiver 122 actually used, the tension provided by medical imagingtransceiver balancer 126 can be adjusted using tension adjuster 125.

Medical imaging transceiver system terminal end 120 is disposed on thearched overhead pivoting boom 130. Arched overhead pivoting boom 130 ispreferably made of a rigid material, such as a stainless steel rod orany other suitable material and configuration. Preferably, archedoverhead pivoting boom 130 can be pivoted around third twistingretraction control joint 188 or any other mechanism which would allowpivoting. Arched overhead pivoting boom 130 has coupled thereto a wireguide 132 which guides the medical imaging transceiver power and signalcable 124 as the arched overhead pivoting boom 130 is pivoted andtranslated up and down, as well as when the medical imaging transceiver122 is moved in and out of the medical imaging transceiver balancer 126.Wire guide 132 can be a simple tube disposed on arched overhead pivotingboom 130, or it can be a series of loops, etc. If arched overheadpivoting boom 130 is hollow, medical imaging transceiver power andsignal cable 124 can be made to run therein. Medical imaging transceiverpower and signal cable 124 can run, as shown by dashed line 124A, tomedical imaging transceiver 122, shown as 122A if it is disposed innon-dangling medical imaging transceiver adapter 136. Multi-axisarticulating assembly 134 is coupled to non-dangling medical imagingtransceiver adapter 136 to provide support in combination with archedoverhead pivoting boom 130. Multi-axis articulating assembly 134 can beany type of multi-axis adjustable joint, including aball-and-socket-type joint. Also shown is joint 135, which allows threedegrees of freedom: 1) rotation around the vertical section 133 ofarched overhead pivoting boom 130; 2) translation up and down onvertical section 133; and 3) horizontal translation along mini-boom 131.

The Figure shows non-dangling medical imaging transceiver adapter 136and medical imaging transceiver adapter 128 as alternative adapters.They may be both mounted on arched overhead pivoting boom 130 at thesame time, or they may be alternately mounted. Medical imagingtransceiver power and signal cable 124 is shown as being alternatelypositionable between medical imaging transceiver adapter 128 andnon-dangling medical imaging transceiver adapter 136, but it should beunderstood that a second independent medical imaging transceiver powerand signal cable could be used to run from medical imaging system 190 toa second independent medical imaging transceiver (not shown). Medicalimaging transceiver adapter 128 and non-dangling medical imagingtransceiver adapter 136 are shown as being coupled and supported byarched overhead pivoting boom 130. It should be understood that theseadapters could also be coupled to some other overhead support system,such as a ceiling-mounted support or a wall-mounted support mounted atan overhead location. The term “overhead” is used herein to refer to anelevated location at least 24 inches above the mattress, cushion orpatient resting surface 112, but in a preferred embodiment, it refers toan elevated position above the head of a physician or other medicaltechnician involved in the imaging procedure.

Arched overhead pivoting boom 130 is coupled to or is integrated withthird internal extension pole segment 189, which is coupled throughthird twisting retraction control joint 188 to third hollow verticalupright support pole 187. Third hollow vertical upright support pole 187is coupled to or is integrated with second internal extension polesegment 179, which is coupled through second twisting retraction controljoint 178 to second hollow vertical upright support pole 177. Secondhollow vertical upright support pole 177 is coupled to or is integralwith first internal extension pole segment 149, which is coupled throughfirst twisting retraction control joint 148 to first hollow verticalupright support pole 147.

Third internal extension pole segment 189, third twisting retractioncontrol joint 188 and third hollow vertical upright support pole 187 arerepresentative of any type of known telescopic support system whichcould be substituted. It is also possible that the arched overheadpivoting boom 130 is coupled to a non-telescopic support.

First hollow vertical upright support pole 147 is shown as a part offloor stand assembly 140, which contains floor stand framework 142,wheels 144 and wheel locks 146.

Overhead medical imaging transceiver support system 100 can also includea bed rail stabilizing system 150, which is used to stabilize theoverhead medical imaging transceiver support system 100 by providing ananchor to an examination table, bed or other patient support device 110through a bed rail or other structural member 114 coupled thereto. Bedrail stabilizing system 150 includes a bed rail stabilizing boom 152which is coupled to first internal extension pole segment 149 via bedrail stabilizer boom to upright joint 156. Bed rail stabilizer boom toupright joint 156 is preferably capable of providing three degrees offreedom to bed rail clamp 154. First of all, bed rail stabilizer boom toupright joint 156 is capable of 1) being moved vertically along firstinternal extension pole segment 149; and 2) capable of having bed railstabilizing boom 152 slid therethrough; and 3) is capable of rotationaround an axis defined by first internal extension pole segment 149. Bedrail stabilizer boom to upright joint 156 can be a rigid 90-degree anglebetween bed rail stabilizing boom 152 and first internal extension polesegment 149 or any other angle. Bed rail stabilizer boom to uprightjoint 156 could also be an adjustable joint which allows the anglebetween bed rail stabilizing boom 152 and first internal extension polesegment 149 to be varied, depending upon the particular needs of theuser. Bed rail or other structural member 114 is coupled to bed railstabilizing boom 152 through a bed rail clamp 154. Like bed railstabilizer boom to upright joint 156, bed rail clamp 154 can have afixed angular relationship, or it can be angularly adjustable.

Patient platform stabilizing system 160 is provided to give additionalstabilization, when necessary. Patient platform stabilizing system 160includes a patient platform stabilizing boom 162 coupled through patientplatform stabilizer boom to upright joint 166 to first internalextension pole segment 149. Patient platform stabilizer boom to uprightjoint 166 can be similar to bed rail stabilizer boom to upright joint156. Patient platform stabilizing boom 162 is coupled to a patientplatform 164, which is placed upon mattress, cushion or patient restingsurface 112, and the patient either sits or lies thereon. The weight ofthe patient and the resulting friction and engagement with the mattress,cushion or patient resting surface 112, provides a quick and easy andbed type independent method of providing stabilization. The notion ofusing a paddle or platform underneath the patient to stabilize medicalequipment has been known in the prior art. Similarly, it has been knownin the prior art to have an ultrasound transceiver coupled to a bed toprovide stabilization.

The overhead medical imaging transceiver support system 100 includes amedical imaging system 190, which can be any type of imaging systemincluding but not limited to ultrasound, gamma ray, etc. Medical imagingsystem 190 includes medical imaging electronics 192 and medical imagingdisplay and input device 194.

In operation, the apparatus and method of the present invention asdescribed in FIG. 1, could function as follows:

a patient is situated on an examination table, bed or other patientsupport device 110;

a medical professional moves a medical imaging transceiver 122 from atop supported overhead position to a top supported lower position nearerthe patient situated on examination table, bed or other patient supportdevice 110;

an imaging procedure is done and the medical imaging transceiver 122 isreleased from the medical professional's hand;

the medical imaging transceiver 122 remains substantially at a constantelevation while it is not grasped by the medical professional;

the medical professional views an image on medical imaging display andinput device 194;

the medical professional again grasps the medical imaging transceiver122 and performs an imaging procedure.

The medical professional again releases grasp of the medical imagingtransceiver 122 and then actuates line actuator 123 by pressing abutton, thereby causing medical imaging transceiver balancer supportline 127 to retract until line actuator 123 is released by releasing thebutton.

Medical imaging transceiver 122 is thereby caused to rise to an elevatedposition.

The medical professional then can swing the medical imaging transceiver122 away from the patient by moving arched overhead pivoting boom 130,or by rolling overhead medical imaging transceiver support system 100 onwheels 144.

In an alternate method, a multi-axis articulating assembly 134 andnon-dangling medical imaging transceiver adapter 136 are used toposition and support the medical imaging transceiver 122.

Throughout this description, reference is made to a medical imagingsystem, because it is believed that the beneficial aspects of thepresent invention would be most readily apparent when used in connectionwith medical imaging; however, it should be understood that the presentinvention is not intended to be limited to imaging, and should be herebyconstrued to include other medical tools, equipment and methodologies aswell.

Throughout this document, references are made to “vertical” and“horizontal” these terms are intended to mean “substantially vertical”and “substantially horizontal”. Minor deviations from vertical and minordeviations from horizontal are intended to be included therein.

It is thought that the method and apparatus of the present inventionwill be understood from the foregoing description and that it will beapparent that various changes may be made in the form, construct steps,and arrangement of the parts and steps thereof, without departing fromthe spirit and scope of the invention or sacrificing all of theirmaterial advantages. The form herein described is merely a preferredexemplary embodiment thereof.

What is claimed is:
 1. An apparatus for top supporting a medical imagingtransceiver from an elevated position comprising: a medical device ofthe type having a medical device cable coupled thereto; a medical deviceadapter, adapted and configured for coupling with and retaining thereinsaid medical device; a patient physical support device; a verticallyadjustable support structure disposed above said patient physicalsupport device; the support structure coupled to said medical deviceadapter and further adapted and configured to maintain support, from afirst elevated position, of said medical device adapter in a secondelevated position without continuous human intervention, where saidsecond elevated position is lower than said first elevated position;said support structure is adapted and configured to allow forrepositioning of said medical device adapter to a third elevatedposition and for maintaining support, from said first elevated position,of said medical device adapter in said third elevated position withouthuman intervention; wherein a first to second separation distanceexisting between said first elevated position and said second elevatedposition is different from a first to third separation distance existingbetween said first elevated position and said third elevated position;said support structure further having cable supports which are adaptedand configured to retain said medical device cable in a location otherthan in a variably sized zone; where said variably sized zone isdefined: at a highest extent by a lowest portion of said medical device;at a lowest extent by a patient supporting surface; and at lateral edgesby vertical planes extending upward from a periphery of said patientsupporting surface; wherein said medical device is a medical imagingtransceiver; said medical device adapter is a medical imagingtransceiver adapter and said medical device cable is a medical imagingtransceiver power and signal cable; said support structure supports saidmedical imaging transceiver adapter in a suspended configuration, wheresaid medical imaging transceiver adapter is suspended by a support linefrom above; and wherein said medical device is a medical imagingtransceiver which emits a signal and receives an echo of the signal, anddetermines a distance to an object by a time delay between emission ofsaid signal and receipt of said echo.
 2. An apparatus of claim 1 whereinsaid support structure has a tension adjuster which is configured topermit adjustment of tension on said support line.
 3. An apparatus ofclaim 2 wherein said support structure further comprises a line actuatorwhich is adapted to permit said line to retract only upon a manualmanipulation of said line actuator.
 4. An apparatus of claim 3 whereinsaid line actuator further comprises a support line lock which prohibitsany retraction and extraction of said support line when said lineactuator is in a locked configuration.
 5. An apparatus of claim 1wherein said support structure supports said medical imaging transceiveradapter with a plurality of substantially rigid elongated memberscoupled by a plurality of joints, each of which allow more than twodegrees of freedom.
 6. An apparatus of claim 1 wherein said supportstructure is ceiling mounted.
 7. An apparatus for top supporting amedical imaging transceiver from an elevated position comprising: amedical device of the type having a medical device cable coupledthereto; a medical device adapter, adapted and configured for couplingwith and retaining therein said medical device; a patient physicalsupport device; a vertically adjustable support structure disposed abovesaid patient physical support device; the support structure coupled tosaid medical device adapter and further adapted and configured tomaintain support, from a first elevated position, of said medical deviceadapter in a second elevated position without continuous humanintervention, where said second elevated position is lower than saidfirst elevated position; said support structure is adapted andconfigured to allow for repositioning of said medical device adapter toa third elevated position and for maintaining support, from said firstelevated position, of said medical device adapter in said third elevatedposition without human intervention; said support structure furtherhaving cable supports which are adapted and configured to retain saidmedical device cable in a location other than in a variably sized zone;where said variably sized zone is defined: at a highest extent by alowest portion of said medical device; at a lowest extent by a patientsupporting surface; and at lateral edges by vertical planes extendingupward from a periphery of said patient supporting surface; wherein saidmedical device is a medical imaging transceiver; said medical deviceadapter is a medical imaging transceiver adapter and said medical devicecable is a medical imaging transceiver power and signal cable; saidsupport structure supports said medical imaging transceiver adapter in asuspended configuration, where said medical imaging transceiver adapteris suspended by a support line from above; wherein said patient physicalsupport device is of a type which is configured to entirely support, onsaid patient supporting surface, a patient in each of a reclinedposition, a sitting position and an intermediate position between saidreclined position and said sitting position; wherein said supportstructure is floor mounted; wherein said support structure comprises anoverhead pivoting boom having a first laterally extending sectiondisposed above said medical imaging transceiver adapter and a firstvertical section at least a portion of which is disposed below saidpatient supporting surface; wherein said overhead pivoting boom pivotsaround an axis defined by said first vertical section; wherein saidfirst vertical section is telescopic; further comprising a firststabilizer which cooperates with said patient physical support device toprovide stabilization of said first vertical section; wherein said firststabilizer is a patient platform stabilizing system comprising: apatient platform stabilizing boom, coupled to said first verticalsection with at least two degrees of freedom; a patient platform coupledto said boom which is configured for engagement with said patientphysical support device when at least a portion of a patient's weight isplaced upon said patient platform, where said engagement results in astabilizing effect upon said first laterally extending section; andfurther comprising a second stabilizer, which cooperates with saidpatient physical support device; where said second stabilizer comprises:a bed rail stabilizing boom coupled to said first vertical section; abed rail clamp coupled to said bed rail stabilizing boom; and, a bedrail stabilizer boom to first vertical section joint.
 8. A method ofsupporting, at variable elevations, a medical device comprising thesteps of: providing an overhead boom disposed over a patient;supporting, at a vertically variable point lower than said overheadboom, a medical device, from said overhead boom; maintaining a powercable extending between remotely located medical electronics and saidmedical device, outside of a zone defined at a top end by a lowest pointof said medical device, at a bottom end by a supporting surface directlybeneath the patient; and laterally by vertical planes extending from aperiphery of said supporting surface; and wherein said medical device isa medical imaging transceiver which emits a signal and receives an echoof the signal, and determines a distance to an object by a time delaybetween emission of said signal and receipt of said echo.
 9. A method ofclaim 8 wherein said medical device is a medical imaging transceiver andsaid step of supporting at a vertically variable point includes a stepof manipulating a line from which said medical imaging transceiver issuspended.
 10. A method of claim 9 further comprising the step ofstabilizing the overhead boom by engaging a stabilizing boom with saidsupporting surface.
 11. A method of claim 10 wherein said stabilizingboom is coupled to a bed rail.
 12. An apparatus comprising: anultrasound transducer disposed in a medical imaging transceiver adapter;said ultrasound transducer having a medical imaging transceiver powerand signal cable coupled thereto; a medical imaging system coupled tosaid medical imaging transceiver power and signal cable; an examinationtable; an arched overhead pivoting boom coupled to a first internalextension pole segment, coupled to a first twisting retraction controljoint and a first hollow vertical upright support pole; a medicalimaging transceiver balancer coupled to said arched overhead pivotingboom; said medical imaging transceiver balancer having a medical imagingtransceiver balancer support line extending therefrom, which is coupledto said medical imaging transceiver adapter; said medical imagingtransceiver balancer having a line actuator for controlling movement ofsaid support line with respect to said medical imaging transceiverbalancer; a wire guide coupled to said arched overhead pivoting boom,which is adapted and configured to maintain said medical imagingtransceiver power and signal cable from contact with a patient that isin contact with said ultrasound transducer; a patient platformstabilizing system comprising: a patient platform; a patient platformstabilizing boom coupled to the patient platform; said patient platformstabilizing boom coupled to a vertical pole; a bed rail stabilizingsystem comprising: a bed rail clamp; a bed rail stabilizing boom coupledto said bed rail clamp and a vertical pole; and, a floor stand assemblycoupled to said first hollow vertical upright support pole.